Dental impression material



'the finished impression.

Patented Oct. 17, 1950 1 Lloyd T. Parr and Samuel B. Rabishaw,

. I ";Chicag0,Ill;..

No new rig.

Original application August 21, a Q

1945, Serial No. 611,920. Divided and this application December 17, 1949,:Serial ;No.'133,67 1- 1 The present invention pertains to impression materials for producing accurate reproductions of objects, and. more particularly to materials for taking dental impressions.

This application is a division of copending application Serial No. 611,920 filed August 21, I

1945, now U. S. Patent No. 2,499,676.

The principal object of the invention is to produce a dental impression material of such consistency as to facilitate the production of more precise dentures. 7

Where comfort, appearance, and function require that the denture should precisely fit the mouth, it is absolutely necessary to produce impressions with materials whose ingredients are conducive in proper combination to create more effective molds. V

In the field of dentistry there has been the problem of inaccurate and inefiicient materials for taking impressions of the teeth. Plaster of Paris was used for many years, but this had many disadvantages. It was not only unpleasant to the patient, but also after the impression had v there was nevertheless, some distortion due to uncontrolled factors. Moreover, with the agar impression materials, which were time consuming inv preparation, there is the ever present danger of burning the mouth of the patient. Due to the wartime shortage of agar, there was developed impression materials of the alginate type. These, too, have been an improvement, yet they have shown inadequacies.

In the practice of the present invention, crystalline mannitol has been incorporated nto an alginate impression material so as to delay the dehydration, and control dimensional change, of I-I'eretofore, available impression materials of the dry powder alginate type were composed mainly of a jelling agent (alginate), a gel retarder (trisodium phosphate),

a gel accelerator (calcium sulphate), and an inert filler. These chemicals, when properly balanced and mixed with water, set to form a flexible gel. After the calcium sulphate had reacted with the water-soluble alginate to form calcium alginate, this gel would lose water by evaporation when exposed to air, or imbibe Water by immersion. In either event, the dimensional accuracy is changed to such an extent that the positive cast made therefrom is an inaccurate one.

It is well known that the loss of moisture from products of this type can be controlled by the incorporation of a plasticizer, or water-holding agent, such asglycerine. But, heretofore, it has not been possible to package a product of this type commercially in dry powder form.

Crystalline mannitol in dry powdered form can be mixed and packaged with the dry powdered alginate type impression materials, and

when mixed with .water'wfll dissolve to form a' Per cent Trisodium phosphate. 2.40 Potassium (water-soluble) alginate 8.61 Crystalline mannitol 23.00 Calcium sulphate; 8.61 Starch (active filler) 57.38

This entire mass is then mixed with water that is at room temperature in sufiicient amount to form a paste by stirring and working the mixture rapidly with a spatula for a predetermined length of time, thus maintaining in paste form the homogeneity of the powder. The mass is then ready for insertion into the patients mouth and is placed in a suitable impression tray, carried to the mouth and seated in position. In a few minutes after the mass is placed in the mouth, it gels to a solid which is sufficiently elastic to withdraw from undercuts, etc. without permanent distortion.

The mass after gelling does not adhere to the mouth or teeth, and a replica or stone cast of 3 the replica or stone cast of the mouth a smooth and durable and tough surface of fine texture, a result not heretofore achieved with similar products.

By using both the plasticizer (crystalline mannitol) and an active filler (starch) we have discovered that it is possible to control dimensional change and increase flexibility which will prevent dimensional distortion.

In addition to the use of starch as an active filler, there are other fillers which can be used, which also actively enter into the formation of the gel, thereby increasing the strength and reducing dimensional change due to evaporation. Fillers of this type would include the. watersoluble gums such as karaya, acacia, locust bean, tragaoanth and pectin. natural gums, materials such as hide glue, gela- :tine, and polyvinyl-alcohol, when used as fillers,

In additioni to the 7 also enter actively into the formation of a strong and stable gel. In general, colloids which are water-soluble or exhibit water-holding properties, having a pH no lower than 4.5 and no higher than 10.0 and which are non-reactive to calcium and trisodium phosphate, may also be used.

While we have described our invention in relation to its application in dental science, We do not intend so to limit its use, but rather to extend its application to all cases Where a resilient, accurate impression material may be of utility.

What we claim is:

Material for taking impressions comprising trisodium phosphate, potassium alginate, crystalline mannitol, calcium sulphate and starch.

' LLOYD T. PARR.

SAMUEL B. RABISHAW.

No references cited. 

